2017
DOI: 10.1016/j.matchar.2017.06.014
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Precipitation in simultaneously nitrided and aged Mo-containing maraging steel

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Cited by 15 publications
(3 citation statements)
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“…Multiple precipitates of Cu precipitates, Ni 3 Ti precipitates, and MC carbides were observed in novel ultra-high strength stainless steel with fully martensitic microstructures via tuning the composition and heat treatment processing [ 115 ]. The Cu-rich precipitates, Mo-rich precipitates, and Ni 3 (Ti, Al) phase are detected after heat treatment in maraging steels [ 64 , 116 ].…”
Section: Microstructure and Properties After Typical Heat Treatment P...mentioning
confidence: 99%
“…Multiple precipitates of Cu precipitates, Ni 3 Ti precipitates, and MC carbides were observed in novel ultra-high strength stainless steel with fully martensitic microstructures via tuning the composition and heat treatment processing [ 115 ]. The Cu-rich precipitates, Mo-rich precipitates, and Ni 3 (Ti, Al) phase are detected after heat treatment in maraging steels [ 64 , 116 ].…”
Section: Microstructure and Properties After Typical Heat Treatment P...mentioning
confidence: 99%
“…For example, Mo-enriched precipitates can precipitate in different forms, such as the Fe2Mo-type Laves phase, Fe7Mo2-type ω phase, Fe7Mo6-type μ phase, trigonal R phase, and quasicrystalline R' phase, depending on the alloy composition and processing variables [17][18][19][20]. Sha et al reported that Ti is more active than Mo in the early stage of precipitation and that the precipitation behavior of Mo is modified owing to the presence of Ti, especially when aging at low temperatures [21].…”
Section: Introductionmentioning
confidence: 99%
“…In the 1960 s, maraging steel has become a research hot spot as a submarine steel [4]. The high content of Ni was found to markedly refines the lath martensite [5], Co and Mo were applied to improve the strength during aging [6,7], and further hinders the decomposition of spiral dislocation to improve the toughness and plasticity [8,9], nano-scale intermetallic compounds (Ni 3 Mo, Ni 3 Ti, et al) precipitates on ultra-low carbon dislocation martensite take the main effect on strength [10][11][12]. Among them, grade 300 maraging steel (M300) is one kind of the most widely used high-strength steel [13].…”
Section: Introductionmentioning
confidence: 99%